KR20090075480A - Pre-pressure change device and method of bearing using compressed air - Google Patents

Abstract

A variable pre-loading device of a bearing using the compressed air and a method thereof are provided to control the pre-loading of the bearing relative to the pressure of the compressed air once the compressed air is transmitted to an air chamber. A variable pre-loading device of a bearing comprises: an inlet(10) in which the compressed air flows; an air chamber(11) in which the compressed air coming through the inlet stays; a piston(12) moved with the compressed air of the air chamber inside; a bearing sleeve(13) joined to the piston; and a bearing(6) in which the pre-load is controlled by the bearing sleeve. The piston and the bearing sleeve are combined with a pre-load spring(14). A ball bush(15) reducing the moving friction of the bearing sleeve is formed between the bearing sleeve and a housing.

Description

Variable preloading device and method using compressed air {Pre-pressure change device and method of bearing using compressed air}

The present invention relates to a variable preloading apparatus and method of a bearing, and more particularly, to form a bearing sleeve capable of preloading a bearing formed on the outside of a spindle capable of rotating at high speed, and the bearing sleeve is moved by compressed air. The piston and the bearing sleeve are combined with each other by a preload spring to give a positive pressure preload to the bearing when compressed air is not applied, and compressed air is applied so that the compressed air is applied to the piston. When the bearing sleeve is moved in accordance with the pressure of the compressed air is a variable preloading device and method of the bearing using compressed air to adjust the preload of the bearing.

In general, a preload is applied to a bearing formed around the shaft (spindle) to help the rotation of the shaft. The purpose of the shaft is to accurately position the shaft in the axial direction (axial direction) and radial direction (radial direction) In the case of suppressing vibration, in the case of increasing the rigidity of the bearing, in the case of preventing the joint due to the vibration and resonance in the axial direction, and in the rolling sliding, revolving sliding and rotating slide of the rolling elements There are cases where it is carried out to suppress it, and when it is carried out to keep a rolling element in the correct position with respect to a track wheel.

That is, the bearing preload has a great influence on the rigidity of the shaft, vibration, noise, heat generation, and processing accuracy of the product, depending on the preload method and preload conditions.The preload preload is mainly applied when the shaft rotates at high speed. Applied when the shaft rotates at low and medium speeds.

Variable preload is a method of using a preload preload at high speed, and applying a preload preload at low speed and medium speed, and adjusting the preload by changing the position of the pressing member (bearing sleeve) capable of pressing the bearing.

As a variable preloading device for such a bearing, there is a device for controlling preload using a piezoelectric element such as that disclosed in JP-A-96-29232. JP-A-94-27675 or JP-A-91-14403 There is a device for automatically adjusting the preload using a spring as disclosed, such as a preload changing device of the spindle bearing of the machining center, such as patent registration No. 246309.

First, the device for adjusting the preload using a piezoelectric element is slow in response and difficult to precisely adjust the preload, and the device for automatically adjusting the preload using a spring always applies only the same static preload to the bearing.

The above-mentioned preload changing device of the machining center spindle bearing has the advantage that the reaction speed is fast by variably adjusting the preload of the bearing by using hydraulic pressure. Since the configuration is complex, there is a problem that the manufacturing cost is increased.

In addition, since the working environment becomes poor by adjusting by using hydraulic fluid, its use is reluctant in recent years in pursuit of a clean working environment, and since the hydraulic fluid is sensitive to heat change, a separate cooling device for cooling the hydraulic fluid is provided. It is necessary.

Accordingly, the present invention provides a variable preloading apparatus and a method of a bearing using compressed air that can simplify the configuration and improve the production environment compared to the variable preloading apparatus of the bearing using hydraulic pressure, thereby lowering the manufacturing cost. There is a purpose.

In addition, by directly connecting the piston operated by the compressed air and the bearing sleeve operated by the piston to the preload spring, a static pressure preload is applied to the bearing even when the compressed air is removed from the air chamber, and the compressed air is applied to the air chamber. Another object is to provide a variable preloading apparatus and method for a bearing using compressed air that can adjust the preload of the bearing according to the pressure of the compressed air.

The variable preloading device and method of the bearing using compressed air according to the present invention can simplify the configuration with the improvement of the working environment compared to the variable preloading device of the bearing using hydraulic pressure, thereby lowering the manufacturing cost, and By directly connecting the piston actuated by the piston and the bearing sleeve actuated by the piston to the preload spring, a static pressure preload is applied to the bearing even when compressed air is removed from the air chamber, and when compressed air is applied to the air chamber, the compressed air The preload of the bearing can be adjusted according to the pressure.

The present invention relates to a variable preloading apparatus and method of a bearing, and more particularly, to form a bearing sleeve capable of preloading a bearing formed on the outside of a spindle capable of rotating at high speed, and the bearing sleeve is moved by compressed air. The piston and the bearing sleeve are combined with each other by a preload spring to give a positive pressure preload to the bearing when compressed air is not applied, and compressed air is applied so that the compressed air is applied to the piston. When the bearing sleeve is moved in accordance with the pressure of the compressed air is a variable preloading device and method of the bearing using compressed air to adjust the preload of the bearing.

Hereinafter, preferred embodiments of the present invention by referring to the accompanying drawings in detail as follows.

Figure 1 is a configuration example of the present invention, Figure 2 is a partial configuration example of the present invention, the variable preloading device of the bearing using the compressed air according to the present invention the preload of the bearing formed on the spindle (2) capable of high speed rotation In the variable pre-loading device for adjusting the pressure, the inlet 10 through which the compressed air enters, the air chamber (11) in which the compressed air entering the inlet 10 stays, and the compressed air inside the air chamber (11) is moved It comprises a piston 12, a bearing sleeve 13 which is moved in combination with the piston 12, and a bearing 6, the preload is controlled by the bearing sleeve (13).

Here, the piston 12 and the bearing sleeve 13 is coupled to the preload spring 14 when the compressed air in the air chamber 11 does not have a constant pressure preload on the bearing (6) by the elastic force of the preload spring (14) Grant.

It is preferable that a ball bush 15 is formed between the bearing sleeve 13 and the housing 1 in order to reduce the moving friction of the bearing sleeve 13, in addition to the ball bush 15, a DU bush or an oil-free bearing may be used. Can be used.

The bearing 6 may be formed to supply lubricating oil through the oil mist 16 as a separate oil lubrication device.

Reference numerals are chuck 3, rotor 5, stator 4, lock nut 9, bearing inner ring 7, bearing outer ring 8, and the like.

First, the inlet 10 is a passage through which compressed air enters, and the inlet 10 should be coupled in a state in which airtightness is maintained with a device capable of inserting compressed air.

As a device to which compressed air can be put, there is a control air compressor (IAC).

Compressed air entering through the inlet 10 is to stay in the air chamber 11, wherein the air chamber 11 is preferably kept airtight so as not to escape the air other than the inlet 10 side air chamber ( On one side of 11) may be formed a discharge passage through which compressed air can slowly escape.

When the discharge passage through which the compressed air escapes is formed, the temperature of the compressed air in the air chamber 11 can be lowered, thereby increasing the cooling effect of the built-in motor and the spindle 2.

When the compressed air is filled in the air chamber 11, the piston 12 is pushed away from the chuck 3 and the bearing sleeve 13 coupled by the piston 12 and the preload spring 14 is also pushed. do.

As a result, the bearing sleeve 13 pushes the bearing outer ring 8 because one side is in contact with the bearing outer ring 8, but one side of the bearing outer ring 8 is fixed by the lock nut 9. The bearing outer ring 8 on the other side is pushed to adjust the preload of the bearing 6.

When the compressed air escapes in the air chamber 11, the piston 12 is returned to the chuck 3, and the length of the preload spring 14 increases due to the movement of the piston 12. Since the elastic force is reduced and the force pushing the bearing sleeve 13 is reduced, the static pressure preload set initially at the bearing 6 is applied.

As a result, in the present invention, the bearing inner ring 7 adjusts the preload by the lock nut 9 and the bearing outer ring 8 moves the piston 12 to form a preload formed between the piston 12 and the bearing sleeve 13. As the spring 14 decreases, the rebound elasticity increases, so that the bearing preload can be variably adjusted by increasing the pressure pushing the bearing sleeve 13.

Therefore, when the spindle 2 is rotated at a high speed, the bearing 6 is in a static pressure preload state without compressed air in the air chamber 11, and when the spindle 2 is at a low speed and medium speed, the air chamber ( 11) Compressed air is applied to the pre-pressure can be adjusted in accordance with the pressure of the compressed air.

Naturally, a gauge (not shown) may be formed around the inlet 10 through which the compressed air enters or around the compressed air inlet device to check the pressure of the compressed air in real time.

In the above-described embodiment, the ball bearing is arranged in the back combination (DB type, back to back) on the side near the chuck 3 in the arrangement of the bearings, and the parallel combination (DT type) is used on the side in which the preload is variable by compressed air. tandem), but this combination can be done by changing the combination according to the situation.

That is, the side close to the chuck can be formed in the form of parallel combination, back combination or face combination (DF, face to face), and the side where the compressed air acts can also use the front combination, back combination and parallel combination.

1 is a configuration example of the present invention

Figure 2 is a partial configuration example of the present invention

<Description of Symbols for Major Parts of Drawings>

1. Housing 2. Spindle 3. Chuck

4. Stator 5. Rotor 6. Bearing

7. Bearing inner ring 8. Bearing outer ring 9. Lock nut

10. Inlet 11. Air chamber 12. Piston

13. Bearing sleeve 14. Preload spring 15. Ball bush

16. Oil mist

Claims (5)

In the variable preloading device for adjusting the preload of the bearing formed on the spindle (2) capable of high speed rotation, An inlet 10 through which compressed air enters, an air chamber 11 in which compressed air entering the inlet 10 remains, a piston 12 moved by compressed air inside the air chamber 11, and the piston A variable preloading device for bearings using compressed air, characterized in that it comprises a bearing sleeve (13) which is coupled to (12) and moved, and a bearing (6) whose preload is controlled by the bearing sleeve (13). The method of claim 1, The piston 12 and the bearing sleeve 13 are coupled to the preload spring 14 to provide a static preload to the bearing 6 by the elastic force of the preload spring 14 when there is no compressed air in the air chamber 11. Variable preloading device for bearings using compressed air The method of claim 1, Variable preloading device for bearings using compressed air, characterized in that a ball bush 15 is formed between the bearing sleeve 13 and the housing 1 to reduce the moving friction of the bearing sleeve 13. In the method for variably adjusting the preload of the bearing formed on the spindle (2) capable of high speed rotation, The bearing sleeve 13 which is in contact with the bearing outer ring 8 formed on the outer surface of the spindle 2 receives the pressure changed by the piston 12 which is moved by the compressed air. Variable preloading method of bearing using compressed air, characterized in that the preload of 6) is controlled The method of claim 4, wherein Compression characterized in that when the pressure of the compressed air does not act on the piston 12, the static pressure preload is applied to the bearing 6 by a preload spring 14 formed between the piston 12 and the bearing sleeve 13. Variable preloading method of bearing using air

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